Christine Negroni riffs on aviation and travel and whatever else inspires her to put words to page.

Wednesday, June 25, 2014

Will Knowing Where MH 370 Ran out of Fuel Help Searchers Find It?

Writing from Canberra -- How many times can investigators slice and dice the electronic back and forth between the missing Malaysia Flight 370 and the inmarsat
satellite system and keep coming up with new details about what might have
happened? Well every time someone tells me that sponge has been wrung dry,
another new fact-let emerges.

A comparison of the seven distinct communication exchanges on March 8th 2014,
indicates that MH-370 still had fuel at 8:11am Malaysia time, seven-and-a-half
hours from the time the plane took off from Kuala Lumpur. This is
interesting considering that the airplane, loaded with 49,100 kilos or
10,8246.97 pounds of fuel for its flight to Beijing had only an estimated 7.2
hours of flying time. (And has always made incredible, the claims by some reporters that the plane engaged in high climbs and steep descents and radar evading.)

The plane was likely cruising on auto-pilot on a reasonably
straight track based on the analysis of the first six transmissions between the
Boeing 777 and the inmarsat satellite after the plane went nordo.

These transmissions have been described
to me by David Coiley at inmarsat as being like the signals a mobile phone
regularly transmits to inform the cellular network of its location and the fact
that it is turned on. The MH 370 pings essentially tell inmarsat, “I’m here, I’m
on.”

What’s different about the 7th and final ping, is that it
was not an “I’m here, I’m on,” communication but rather an attempt by the
airplane to log back into the system, which means it followed an interruption
in power on the airplane and tells the investigators that this is the point
where the plane ran out of fuel.

This is not a stunning piece of news, of course. Airplanes
without fuel will descend. What makes it intriguing is how the Australians and
others hunting for this elusive airplane hope to use knowledge of the plane’s
fuel exhaustion to narrow the search area. Unfortunately, knowing where the tanks
ran dry turns out not to be as illuminating as one might hope.

"It runs out of fuel, it’s been at cruise, that’s the
assumption," Dolan said. Did both engines stop running at the same time or
did one precede the other? The so-far unknowable answer to that question has
big consequences for where the jet wound up in the ocean.

“The behavior of the aircraft is different if it’s simultaneous;
you’re likely to get a glide for some period of time. If it’s one (engine at a
time) you’ll get a fairly quick stall," Dolan explained.

Whether the plane glided smoothly, was airborne for a while,
if it entered the water slowly, these are follow up questions for a simultaneous loss of fuel on both engines. Losing fuel on one engine at a time could
cause an entirely different crash scenario; a rapid loss of control, a messy
impact and could include the possibility that wreckage might be behind
the area where the plane hits the water. "Most of the international research says that if you
have a loss of control, which is the most likely scenario, than you’ll find it
within 15 nautical miles of the route, of the last known point," Dolan
said.

In a case in which every little shard of information can
cause a massive readjustment of complicated computer models, creating a
newer-better search zone now means working with about 1000 probable scenarios.

Searching the Indian Ocean Photo courtesy JACC

On Thursday, the ATSB is going to reveal to eager reporters
the product of all that scenario crunching, with the parameters of a new search
field detailed. But don't expect any dramatic shrinking. The new area is expected
to be about 60,000 square kilometers, (37,282 square miles)
roughly the size of Indiana.

“This is the best analysis we can do with the information
available to us,” Dolan said at the end of our time together, reminding me and
everyone else, “there is no guarantee of success.”

“But what we said is
we want an area that’s practicably searchable within about a year with the
right levels of resources - sixty thousand square kilometers, is it.”